QuoteMKSA
The advantage of having only one motor is that you don't need to "de-rack" and provided your machine is of a good design, rigid, properly constrained, accounts for thermal expansion, built with the proper components, you don't even need z-probing/auto bed leveling.

... By calibrate I mean small steppers who change two Z parameters and fix it (fixing by using worm drives e.g.).

QuoteMKSA
The advantage of having only one motor is that you don't need to "de-rack" and provided your machine is of a good design, rigid, properly constrained, accounts for thermal expansion, built with the proper components, you don't even need z-probing/auto bed leveling.

... By calibrate I mean small steppers who change two Z parameters and fix it (fixing by using worm drives e.g.).

Seriously ?

Yes, seriously. This was the idea: a separate process outside of the 3d printer controller (an Arduino with a CNC board):

Measure deviation and then calibrate: one point of Z is fixed, the second is the horizontal level to the other end of the bed (pitch adjuster), the other to the pivot point (roll adjuster), so you need two corrections. Align horizontally. After aligning the XY horizontally, you have the same distance of the nozzle to print bed.

QuoteMKSA
The advantage of having only one motor is that you don't need to "de-rack" and provided your machine is of a good design, rigid, properly constrained, accounts for thermal expansion, built with the proper components, you don't even need z-probing/auto bed leveling.

... By calibrate I mean small steppers who change two Z parameters and fix it (fixing by using worm drives e.g.).

Seriously ?

Yes, seriously. This was the idea: a separate process outside of the 3d printer controller (an Arduino with a CNC board):

Measure deviation and then calibrate: one point of Z is fixed, the second is the horizontal level to the other end of the bed (pitch adjuster), the other to the pivot point (roll adjuster), so you need two corrections. Align horizontally. After aligning the XY horizontally, you have the same distance of the nozzle to print bed.

QuoteMKSA
The advantage of having only one motor is that you don't need to "de-rack" and provided your machine is of a good design, rigid, properly constrained, accounts for thermal expansion, built with the proper components, you don't even need z-probing/auto bed leveling.

... By calibrate I mean small steppers who change two Z parameters and fix it (fixing by using worm drives e.g.).

Seriously ?

Yes, seriously. This was the idea: a separate process outside of the 3d printer controller (an Arduino with a CNC board):

Measure deviation and then calibrate: one point of Z is fixed, the second is the horizontal level to the other end of the bed (pitch adjuster), the other to the pivot point (roll adjuster), so you need two corrections. Align horizontally. After aligning the XY horizontally, you have the same distance of the nozzle to print bed.

So please do a prototype

I have to wait until the far east delivers ;-) Stepper was a simplification: I will use a DC motor with gear for 1 RPM. Together with a M3 fine for 0.4 mm per round this is 7 um per second. I will make a prototype and show you. I will not use it for 3d print (digital dentist's argument: not necessary if the printer is stable), but for woodworking matters it will be very valuable.

QuoteMKSA
If your machine requires frequent adjustments, it is normal due to the way it is built. Looking at just the Z axis; 4 lead screws, 4 guides and many bearings ... the assembly must be flexible as there is NO WAY to align all this perfectly thus a rigid set up would irremediably bind. Even, I wonder how many bearings are really bearing !
Anyway.

It does not require frequent adjustments, one of them (the one which is not moving around) had not required bed leveling in months, does not require calibration of any kind with the exclusion of print parameters. It had lost 2 screws in its lifespan of 6 months because I did not use thread locker. And Z works well, and Yes not all 20 bearings bearing and Yes they suppose to give some play and not get jammed. You are not paying attention, look at vertical walls of calibration cubes above one more time. The funniest thing is - it works. I had seen a lot of amazed people who checked print quality coming out of this printer at ERRF.

Quotethe_digital_dentist
Eliminating adjustments is an achievable goal, just not the way you're building the printers.
TLDR: it isn't impossible to eliminate adjustments, but I don't think you can do it if you use printed plastic joints in the frame structure, motor mounts, linear bearings, etc.

I may argue that Airwolf or Ultimaker have printed or plastic parts in them. Prusa is printed and considered to be one of the best printers.
My goal was simple - to create coreXY printer design based on EMT conduits and printed parts, which can print at 120 mm/s. That goal has been accomplished as it may print at 200 mm/s and up to 300 mm/s (will require extruder modification). But my next design which I had in mind 5 months ago to improve speed by adding moving bed on coreXY moving opposite direction to the head is out of the question as I reached the limits of the extruder.

I am not trying to avoid calibration I know that eventually it will be required even for your printer. I am working on a solution which will auto calibrate the bed (gantry in my case).

Have you found the idea of diagonal struts by chance or by mathematical calculation?

I am still searching for a good freeware simulation program to optimize struts construction, especially in respect of vibration effects (how to minimize stepper vibrations e.g.). The program Z88 is a good program in this direction, but has still some limitations at multipart and dynamic calculations.

QuoteJoergS5
Have you found the idea of diagonal struts by chance or by mathematical calculation?

It was more by intuition.

QuoteJoergS5I am still searching for a good freeware simulation program to optimize struts construction, especially in respect of vibration effects (how to minimize stepper vibrations e.g.). The program Z88 is a good program in this direction, but has still some limitations at multipart and dynamic calculations.

Try Fusion 360 and get free startup or individual license. It has a stress test simulations.

QuoteMKSA
If your machine requires frequent adjustments, it is normal due to the way it is built. Looking at just the Z axis; 4 lead screws, 4 guides and many bearings ... the assembly must be flexible as there is NO WAY to align all this perfectly thus a rigid set up would irremediably bind. Even, I wonder how many bearings are really bearing !
Anyway.

It does not require frequent adjustments, one of them (the one which is not moving around) had not required bed leveling in months, does not require calibration of any kind with the exclusion of print parameters. It had lost 2 screws in its lifespan of 6 months because I did not use thread locker. And Z works well, and Yes not all 20 bearings bearing and Yes they suppose to give some play and not get jammed. You are not paying attention, look at vertical walls of calibration cubes above one more time. The funniest thing is - it works. I had seen a lot of amazed people who checked print quality coming out of this printer at ERRF.

I was referring to all the adjustments you mentioned you have to do after moving your printer a few fractions of a furlong.

If there are bearings that don't touch the tube, then they are of no use. In fact half of the Z bearing assemblies (which are not very rigid and luckily as the system would bind), half of the lead screws, 3 motors are not required.

Besides, for the X Y, you departed from this kind of assembly. You used it for your Prusa inspired machine. Why ?

o_lampe and DD also mentioned some shortcomings, I agree with.

If I intervened it is because of NathanaelXYZ intervention regarding this great idea of using FOUR Z motors. This is one "non sense" too much.

QuoteJoergS5
Have you found the idea of diagonal struts by chance or by mathematical calculation?

I am still searching for a good freeware simulation program to optimize struts construction, especially in respect of vibration effects (how to minimize stepper vibrations e.g.). The program Z88 is a good program in this direction, but has still some limitations at multipart and dynamic calculations.

This has nothing to do with a geode that like lattice beam is based on the properties of the triangle and I don't see any in this frame (some looks like). [techblog.ctgclean.com]

QuoteMKSA
I was referring to all the adjustments you mentioned you have to do after moving your printer a few fractions of a furlong.

I was referring to 8 cubic meter 3d printers built by my friend

QuoteMKSA
If there are bearings that don't touch the tube, then they are of no use. In fact half of the Z bearing assemblies (which are not very rigid and luckily as the system would bind), half of the lead screws, 3 motors are not required.

Sorry, I do not understand your statement.

QuoteMKSA
Besides, for the X Y, you departed from this kind of assembly. You used it for your Prusa inspired machine. Why ?

Several reasons: to get higher speed, compactness, weight.

QuoteMKSA
If I intervened it is because of NathanaelXYZ intervention regarding this great idea of using FOUR Z motors. This is one "non sense" too much.

Sometimes it is easier, less time consuming, and cheaper to add motors than build custom motion transfer mechanism for a single motor 3 lead screws. Plus it opens a possibility to achieve auto squaring/cubing which is currently is used in some Prusa like machines with 2 independent Z motors.

Large format 600x450x400 (24''x18''x16'') or 4 CF version of Piper 2 is up and running.

It was presented at World Maker Fair last weekend.
I was asking people to shake the printer and most of them had been confused seeing that the table was shaking, but the printer was keeping its integrity.
One of the visitors guessed that printer was bolted to the table - it was not
Another has shaken is so hard that 24x20 bed mirror has jumped causing a layer shift on a print, but the printer had continued to print - need to fix mirror on the bed .

It has 0.8mm nozzle and prints 0.4 mm layer height. No heated bed yet, so printing PLA on a mirror with blue painters tape.
This is an example of the print - bath tab boat from Thingiverse scaled up 300%, green boat is for comaparison to original size:

Looks great! I built a h-bot design using conduit (which looks really nice when powder-coated!), but the h-bot gantry racking was too much of a problem. It printed OK, but skewing in the prints was a big problem. I have enough conduit to build a design like this, and I've been itching to make a new printer, this might be what I'm looking for!

Skewing is regulated by belts tension in coreXY. To square my gantry I am moving X carriage to the front and tension belts so distance from Y crriages on the left and right sides to mounts holding pooleys is the same (my system is simmetrical and Y carriages are touching rod holders in this position)

QuoteNewPerfection
I have enough conduit to build a design like this, and I've been itching to make a new printer, this might be what I'm looking for!

You've certainly stepped on a few toes around here piper3D lol. Well done !

Anyone who enjoys letting their imagination and design ideas out into the open is fine by not just me, we like what you've done piper3D, it prints, which means yes ! and at a price that makes a lot more sense to the home user.

There are things in life that matter (such as making it past the next 5 mins in one piece, the list goes on - assuming you make it past the next 5 mins), 3D printers isn't one of them. Why not play nice and enjoy each others creations and be respectful of those that share ? you know you want too, really